/*******************************************************************************
* Copyright 2017-2025 Intel Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
*     http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*******************************************************************************/

#include <string>
#include <utility>
#include <vector>

#include "oneapi/dnnl/dnnl.h"

#include "common.hpp"
#include "dnnl_common.hpp"
#include "dnnl_memory.hpp"
#include "utils/parser.hpp"

#include "binary/binary.hpp"
#include "bnorm/bnorm.hpp"
#include "brgemm/brgemm.hpp"
#include "concat/concat.hpp"
#include "conv/conv.hpp"
#include "deconv/deconv.hpp"
#include "eltwise/eltwise.hpp"
#include "gnorm/gnorm.hpp"
#include "ip/ip.hpp"
#include "lnorm/lnorm.hpp"
#include "lrn/lrn.hpp"
#include "matmul/matmul.hpp"
#include "pool/pool.hpp"
#include "prelu/prelu.hpp"
#include "reduction/reduction.hpp"
#include "reorder/reorder.hpp"
#include "resampling/resampling.hpp"
#include "rnn/rnn.hpp"
#include "self/self.hpp"
#include "shuffle/shuffle.hpp"
#include "softmax/softmax.hpp"
#include "sum/sum.hpp"
#include "zeropad/zeropad.hpp"

#ifdef BUILD_GRAPH
#include "graph/graph.hpp"
#endif

int verbose {0};
bool canonical {false};
bool mem_check {true};
std::string skip_impl;
stat_t benchdnn_stat {0};
summary_t summary {};
std::string driver_name;

double max_ms_per_prb {default_max_ms_per_prb};
double default_max_ms_per_prb {3e3};
int min_times_per_prb {5};
int fix_times_per_prb {default_fix_times_per_prb};
int default_fix_times_per_prb {0};
int repeats_per_prb {default_repeats_per_prb};
int default_repeats_per_prb {1};

bool default_fast_ref {DNNL_CPU_RUNTIME != DNNL_RUNTIME_NONE};
bool fast_ref {default_fast_ref};

bool allow_enum_tags_only {true};
int test_start {0};
bool attr_same_pd_check {false};
bool check_ref_impl {false};

execution_mode_t execution_mode {execution_mode_t::direct};

int main(int argc, char **argv) {
    using namespace parser;

    if (argc < 2) {
        fprintf(stderr, "err: no arguments passed\n");
        return 1;
    }

    --argc;
    ++argv;

    timer::timer_t total_time;

    if (parse_main_help(argv[0])) return 0;

    init_fp_mode();

    for (; argc > 0; --argc, ++argv)
        if (!parse_bench_settings(argv[0])) break;

    if (!strcmp("--self", argv[0])) {
        self::bench(--argc, ++argv);
    } else if (!strcmp("--conv", argv[0])) {
        conv::bench(--argc, ++argv);
    } else if (!strcmp("--deconv", argv[0])) {
        deconv::bench(--argc, ++argv);
    } else if (!strcmp("--ip", argv[0])) {
        ip::bench(--argc, ++argv);
    } else if (!strcmp("--shuffle", argv[0])) {
        shuffle::bench(--argc, ++argv);
    } else if (!strcmp("--reorder", argv[0])) {
        reorder::bench(--argc, ++argv);
    } else if (!strcmp("--bnorm", argv[0])) {
        bnorm::bench(--argc, ++argv);
    } else if (!strcmp("--gnorm", argv[0])) {
        gnorm::bench(--argc, ++argv);
    } else if (!strcmp("--lnorm", argv[0])) {
        lnorm::bench(--argc, ++argv);
    } else if (!strcmp("--rnn", argv[0])) {
        rnn::bench(--argc, ++argv);
    } else if (!strcmp("--softmax", argv[0])) {
        softmax::bench(--argc, ++argv);
    } else if (!strcmp("--pool", argv[0])) {
        pool::bench(--argc, ++argv);
    } else if (!strcmp("--prelu", argv[0])) {
        prelu::bench(--argc, ++argv);
    } else if (!strcmp("--sum", argv[0])) {
        sum::bench(--argc, ++argv);
    } else if (!strcmp("--eltwise", argv[0])) {
        eltwise::bench(--argc, ++argv);
    } else if (!strcmp("--concat", argv[0])) {
        concat::bench(--argc, ++argv);
    } else if (!strcmp("--lrn", argv[0])) {
        lrn::bench(--argc, ++argv);
    } else if (!strcmp("--binary", argv[0])) {
        binary::bench(--argc, ++argv);
    } else if (!strcmp("--matmul", argv[0])) {
        matmul::bench(--argc, ++argv);
    } else if (!strcmp("--resampling", argv[0])) {
        resampling::bench(--argc, ++argv);
    } else if (!strcmp("--reduction", argv[0])) {
        reduction::bench(--argc, ++argv);
    } else if (!strcmp("--zeropad", argv[0])) {
        zeropad::bench(--argc, ++argv);
    } else if (!strcmp("--brgemm", argv[0])) {
        brgemm::bench(--argc, ++argv);
        brgemm::brgemm_finalize();
    } else if (!strcmp("--graph", argv[0])) {
#ifdef BUILD_GRAPH
        graph::bench(--argc, ++argv);
#else
        printf("Error: the library was built without Graph API support.\n");
        exit(1);
#endif
    } else {
        printf("Error: can't parse the driver name \'%s\'.\n", argv[0]);
        exit(1);
    }

    total_time.stamp();

    if (has_bench_mode_bit(mode_bit_t::corr) && summary.failed_cases
            && !benchdnn_stat.failed_cases.empty()) {
        printf("===========================================================\n");
        printf("= Failed cases summary (--summary=no-failures to disable) =\n");
        printf("===========================================================\n");
        const size_t n_cases = benchdnn_stat.failed_cases.size();
        size_t n_printed = 0;
        for (const auto &e : benchdnn_stat.failed_cases) {
            printf("%s\n", e.second.c_str());
            n_printed++;
            if (n_printed < 10) continue;
            if (n_cases > n_printed) {
                printf("(... %zu more cases ...)\n", n_cases - n_printed);
            }
            break;
        }
        printf("============================\n");
    }

    printf("tests:%d passed:%d skipped:%d mistrusted:%d unimplemented:%d "
           "invalid_arguments:%d failed:%d listed:%d\n",
            benchdnn_stat.tests, benchdnn_stat.passed, benchdnn_stat.skipped,
            benchdnn_stat.mistrusted, benchdnn_stat.unimplemented,
            benchdnn_stat.invalid_arguments, benchdnn_stat.failed,
            benchdnn_stat.listed);
    if (has_bench_mode_bit(mode_bit_t::perf)) {
        const auto &perf_timer
                = benchdnn_stat.ms.find(timer::names::perf_timer);
        if (perf_timer != benchdnn_stat.ms.end()) {
            const auto &perf_timer_stats = perf_timer->second;
            printf("total perf: min(ms):%g avg(ms):%g\n",
                    perf_timer_stats[timer::timer_t::min],
                    perf_timer_stats[timer::timer_t::avg]);
        }
    }

    const auto total_s = total_time.sec(timer::timer_t::sum);
    printf("total: %.2fs;", total_s);
    for (const auto &e : timer::get_global_service_timers()) {
        const auto &supported_mode_bit = std::get<1>(e);
        if (!has_bench_mode_bit(supported_mode_bit)) continue;

        const auto &t_name = std::get<2>(e);
        const auto &t = benchdnn_stat.ms.find(t_name);
        if (t == benchdnn_stat.ms.end()) continue;

        const auto &stats = t->second;
        const auto &t_print_name = std::get<0>(e);
        double s = stats[timer::timer_t::sum];
        double r_s_to_total = 100.f * s / total_s;
        printf(" %s: %.2fs (%.0f%%);", t_print_name.c_str(), s, r_s_to_total);
    }
    printf("\n");

    finalize();

    return !!benchdnn_stat.failed;
}
